US7745689B2 - Nephropathy-associated gene - Google Patents
Nephropathy-associated gene Download PDFInfo
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- US7745689B2 US7745689B2 US10/545,276 US54527605A US7745689B2 US 7745689 B2 US7745689 B2 US 7745689B2 US 54527605 A US54527605 A US 54527605A US 7745689 B2 US7745689 B2 US 7745689B2
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- nephropathy
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- gene
- insulin
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Definitions
- the present invention relates to a nephropathy-associated gene, a transgenic non-human mammalian animal constructed by transferring the gene, a therapeutic agent for nephropathy, and a method for screening medicines effective for diagnosis or treatment of the nephropathy.
- the invention relates particularly to diabetic nephropathy in the nephropathy.
- Nephropathy for which no specific medicine is available, requires an artificial dialysis treatment in an advanced stage even though this treatment inflicts pain on patients.
- diabetic neuropathy has become a serious problem as the number of patients with diabetes has increased.
- ICER suppresses insulin (A. Inada et al JBC 1999 vol. 274 no. 30 p. 21095-21103; A. Inada et al BBRC 1998 vol. 253 no. 3 p. 712-718) gene transcription, and that ICER is increased in the diabetic condition (Inada A. et al BBRC 1998 vol. 253 no. 3 p. 712-718), but no association of ICER with diabetic nephropathy has been known.
- the present invention mainly intends to provide a method useful for the diagnosis and the treatment of nephropathy including diabetic nephropathy and a transgenic non-human mammalian animal useful as a pathogenic model of diabetic nephropathy.
- the present inventor carried out extensive studies mainly aiming at solving the above subject matters.
- ICER I ⁇ Tg mouse transgenic mouse
- the present inventor has found that the ICER Tg mouse develops diabetes that stably expresses major clinical and pathological features of human diabetic nephropathy, and has completed the present invention by further analyses.
- the present invention relates to the followings.
- a nephropathy-associated gene characterized by encoding an insulin transcription repressor belonging to a transcription factor CREM family.
- insulin transcription repressor is any one selected from the group consisting of CREM ⁇ , ICER I and ICER I ⁇ .
- a nephropathy developing agent comprising the gene according to any one of [1] to [7].
- a diabetic nephropathy developing agent comprising the gene according to any one of [1] to [7].
- a probe for determination or diagnosis of human nephropathy composed of 15 base or more nucleotide sequence capable of hybridizing with the gene according to [7] under a stringent condition.
- nephropathy-associated protein which is any one selected from the group consisting of CREM ⁇ , ICER I and ICER I ⁇ .
- a preventive or therapeutic agent of neuropathy containing the antibody according to [15] or the antisense DNA according to [17] as an active component.
- a method for determining or diagnosing nephropathy having a step of examining an expression level of the human nephropathy-associated gene according to [7] in a specimen using the probe according to [10] or the antibody according to [12].
- a method for screening a preventive or therapeutic agent for at least one selected from the group consisting of nephropathy, diabetic nephropathy and diabetes having a step of administering a subject substance to the transgenic non-human mammalian animal according to any one of [20] to [25] and measuring an effect of the subject substance on at least one selected from the group consisting of nephropathy, diabetic nephropathy and diabetes of the mammalian animal.
- a method for screening a preventive or therapeutic agent for at least one selected from the group consisting of human nephropathy, diabetic nephropathy and diabetes comprising a step of culturing the mammalian cells according to [28] or [29] in the presence of a medicine candidate compound in culture of the mammalian cells and a step of measuring an amount of the expressed marker gene in the presence or absence of the candidate compound.
- FIG. 1 shows ICER I ⁇ expression and effects thereof produced in ICER I ⁇ Tg mice.
- FIG. 1 a shows a produced construct.
- FIG. 1 b shows a detection result of ICER I ⁇ mRNA. The ICER I ⁇ mRNA was correctly expressed from the transgene construct in ICER I ⁇ Tg mice.
- FIG. 1 c shows protein expression of ICER I ⁇ detected by Western blotting. The protein, at a large amount, was expressed in ICER I ⁇ Tg mice.
- FIG. 1 d shows insulin mRNA amounts. The insulin mRNA was scarcely expressed in ICER I ⁇ Tg mice.
- FIG. 2 shows blood glucose levels and variations of blood parameters in order to evaluate the effects of ICER I ⁇ expression.
- FIG. 2 a shows the changes of the blood glucose levels, and white and black circles indicate wild type (WT) and ICER I ⁇ Tg mice, respectively.
- FIG. 2 a shows the changes on day 0 and day 7.
- the blood glucose level was increased in ICER I ⁇ Tg mice on the 7th day after birth.
- FIG. 2 b shows the changes of the blood glucose levels for 20 weeks. Tg mice develop severe diabetes as early as 2 weeks of age and sustain hyperglycemia.
- FIG. 2 c shows the changes of plasma insulin levels. Insulin synthesis was suppressed in ICER I ⁇ Tg mice.
- FIG. 2 d shows the changes of ketone bodies (acetone, acetoacetic acid and ⁇ -hydroxybutyric acid). The levels of the ketone bodies were increased in ICER I ⁇ Tg mice.
- FIG. 2 e shows the changes of glucagon levels. Production of glucagon was increased in ICER I ⁇ Tg mice.
- FIG. 2 f shows pancreatic islets stained with anti-insulin antibody (green) and anti-ICER I ⁇ antibody (red) in mice on the 7th day after birth. In ICER I ⁇ Tg mice, the expression of ICER I ⁇ and the decrease of insulin-producing cells were observed (a bar represents 10 mm). One or two cells are shown in photographs at the right side.
- FIG. 3 shows the change of body weight of ICER I ⁇ Tg and WT mice.
- FIG. 3 b shows the changes on 0 day and the 7th day after birth.
- FIG. 3 a is a photograph of a male Tg mouse and control littermate (WT) at 12 weeks of age.
- FIG. 3c show the growth curve of male mice from day 0 to 20 weeks of age. There was no difference in growth until 7 days after birth ( FIG. 3 b ), but the growth of ICER I ⁇ Tg mice was suppressed around 6 weeks of age ( FIG. 3 c ).
- FIG. 4 a shows the changes of urinary volumes, and ICER I ⁇ Tg mice exhibited polyuria.
- FIG. 4 b shows the changes of urinary albumin excretion. Proteinuria was increased in ICER I ⁇ Tg mice with aging.
- FIG. 4 c shows the changes of urinary NAG which is an indicator of renal tubular disorder. All levels of the urinary volume, urinary albumin and urinary NAG were increased with aging in ICER I ⁇ Tg mice. All levels of the urinary volume, urinary albumin and urinary NAG were further increased in ICER I ⁇ Tg mice compared with WT mice.
- FIG. 5 shows the results obtained by giving HE staining to kidney specimens and observing by an optical microscopy. Enlargement of renal pelvis and renal tubule was observed in the Tg mice.
- FIG. 6 shows the results obtained by giving PAS staining to kidney specimens and observing by an optical microscopy. Compared with the WT mice, glomerular hypertrophy was observed in the Tg mice at 4 weeks of age and sclerosis thereof was observed at 12 weeks.
- FIG. 7 shows glomerulus in the mouse at 36 weeks of age. Obvious glomerular sclerosis was observed in ICER I ⁇ Tg mice ( FIG. 7 a, b, c ). The glomerular hypertrophy was quantitatively examined, and consequently the hypertrophy was observed from 4 to 12 weeks of age ( FIG. 7 d ).
- FIG. 8 shows immunohistochemical staining for collagen type IV. The increase of collagen type IV was observed in ICER I ⁇ Tg mice.
- FIG. 9 shows the expression of the extracellular matrix in glomeruli by immunohistochemical staining for collagen type IV or laminin.
- a and B a left and a right indicate renal sections at 40 weeks of age in the WT and ICER I ⁇ Tg mice, respectively.
- C and D indicate scores obtained by determining from the renal sections.
- collagen type IV and laminin were quantitatively increased.
- FIG. 10 shows islet morphology in mice from line Tg23.
- FIG. 11 shows cyclin A expression and proliferation in islets at day 7 of age (line Tg23).
- A Dual staining of insulin (red) and Ki67 (green) as a marker of cell proliferation was analyzed by confocal microscopy. Ki67 protein was detected in many nuclei of insulin-positive cells in WT mice but in no insulin-positive cells in ICER I ⁇ Tg mouse.
- B cyclin A expression in islets at day 7 of age. At day 7, normally a time of active cell proliferation, cyclin A protein was detected in most of the nuclei in islets in WT mice but in only a few islets of ICER I ⁇ Tg mice.
- the gene encodes an insulin transcription repressor belonging to the CREM (cAMP responsive element modulator) family which modulates transcription of an insulin gene by binding to a regulatory transcription factor (cAMP responsible element [CRE]).
- CREM cAMP responsive element modulator
- CRE regulatory transcription factor
- the repressors of insulin gene transcription belonging to the transcription factor CREM family, include ICER I (inducible cAMP early repressor I), ICER I ⁇ , CREM ⁇ and the like. Among them, ICER I ⁇ is particularly useful.
- the nephropathy-associated gene of the present invention widely encompasses nephropathy-associated genes derived from mammalian animals such as human, rat, monkey, dog, rabbit, hamster, cattle and horse in addition to genes derived from a mouse (SEQ ID NOS:1, 2, etc.), and also encompasses these genes or complementary chains thereof or polynucleotides capable of hybridizing therewith under a stringent condition.
- the gene derived from the mouse is useful for the production of transgenic mice
- the gene derived from the human is useful for diagnosis of human nephropathy, evaluation of potential nephropathy in future and search of therapeutic agents for human patients with renal diseases.
- the stringent condition refers to the condition where only specific hybridization occurs and non-specific hybridization does not occur.
- Such a condition is typically a state of about “1 ⁇ SSC, 0.1% SDS at 37° C.”, preferably about “0.5 ⁇ SSC, 0.1% SDS at 42° C.”, and more preferably about “0.2 ⁇ SSC, 0.1% SDS at 65° C.”.
- a DNA obtained by the hybridization usually has high homology to a DNA represented by a base sequence described in SEQ ID NO: 1 or 2.
- the high homology indicates a homology of 60% or more, preferably a homology of 75% or more, and most preferably a homology of 90% or more.
- the DNA obtained by the hybridization or a nephropathy-associated protein encoded by the gene has an effect to develop nephropathy.
- the transcription repressor which belongs to the CREM family is a regulatory factor of insulin and cyclin A gene transcription activity.
- this repressor is excessively expressed, the insulin production is reduced, and ⁇ -cell replication are inhibited.
- islets have reduced ⁇ -cell numbers and impaired insulin secretion, leading to chronic hyperglycemia, which results in severe diabetes.
- the present inventor has elucidated that ICER Tg mouse model exhibits not only severe diabetes but also develops progressive diabetic nephropathy.
- nephropathy-associated genes of the present invention having such properties contribute to elucidate an onset mechanism and progress of nephropathy, to further elucidate pathogenesis and treatment of patients with nephropathy, and can be used usefully for nephropathy onset, analysis of nephropathy, detection of nephropathy, diagnosis of nephropathy and the like.
- diabetic nephropathy develops.
- the gene of the present invention can be utilized as a nephropathy developing agent or a diabetic nephropathy developing agent by incorporating as needed in a vector and the like under the control of a promoter which is highly expressed in a mammalian animal that is a host.
- Nephropathy developing agent or diabetic nephropathy developing agent can be utilized for the production of a model animal for diabetic nephropathy development.
- the nephropathy-associated gene of the present invention develops the nephropathy (particularly, diabetic nephropathy), and is likely to simultaneously develop diabetic complications (angiopathy, retinopathy, neuropathy etc.) other than nephropathy when the gene is expressed at high levels.
- neuropathy is observed in an STZ (streptozotocin)-induced diabetes model, and thus, it is highly likely that the neuropathy also occurs in the transgenic mice of the present invention.
- neuropathy-associated genes and GeneBank access numbers thereof are exemplified below:
- the neuropathy-associated genes of the present invention are not limited thereto, widely encompass the insulin transcription repressors belonging to the CREM family, and further encompass modified genes capable of hybridizing with such insulin gene transcription repressors under the stringent condition.
- the neuropathy-associated gene of the invention can be expressed systemically, but it is preferable to selectively express in organs such as pancreas and kidney, preferably the pancreas, and more preferably Langerhans islet cells in the pancreas.
- organs such as pancreas and kidney, preferably the pancreas, and more preferably Langerhans islet cells in the pancreas.
- selective expression in the Langerhans islet cells can be accomplished by expressing the nephropathy-associated gene under the control of an insulin promoter.
- the selective expression in the other site/organ can be accomplished by placing the nephropathy-associated gene of the invention under a promoter of a gene to be selectively expressed in the site/organ.
- expressing repressors under a ⁇ -cell specific promoter such as Pdx-1 , or IAPP, as has been discussed for the insulin promoter, would be useful.
- nephropathy-associated gene of the invention When the nephropathy-associated gene of the invention is expressed at a high level, levels of collagen IV and laminin are increased, and these phenomena indicate glomerular sclerosis. When the glomerular sclerosis occurs, a glomerular filtration rate (GFR) is reduced and renal dysfunction occurs to develop renal failure and finally uremia. Concomitantly with this, intravascular pressure is increased to develop hypertension. Therefore, by expressing the nephropathy-associated gene at a high level, it is possible to produce pathological models for various renal diseases.
- GFR glomerular filtration rate
- a probe of the present invention is composed of a sequence of 15 base or more capable of hybridizing with the above gene of the invention under the stringent condition, particularly composed of a nucleotide sequence complementary to the gene of the invention or a complementary chain thereof, and can be used usefully for the purpose of examining nephropathy-related issues such as determination or diagnosis of nephropathy. It is also possible to use for the analysis or detection of nephropathy. In particular, the probe of the invention can be suitably used for the determination or diagnosis of diabetic nephropathy.
- the probe has a part of the sequence of human nephropathy-associated gene subjected to the diagnosis of the human nephropathy.
- the probe of the invention can be also utilized as a disease marker by imparting an appropriate label.
- the probe or the disease marker of the invention can be used effectively for the diagnosis or determination of nephropathy or diabetic nephropathy such as examinations of presence or absence of the onset of nephropathy or progression stages of nephropathy or diabetic nephropathy by using for a step of contacting with a specimen sample and measuring the presence or absence of and an amount of a gene bound to the probe or an expression product (mRNA) thereof.
- nephropathy or diabetic nephropathy such as examinations of presence or absence of the onset of nephropathy or progression stages of nephropathy or diabetic nephropathy by using for a step of contacting with a specimen sample and measuring the presence or absence of and an amount of a gene bound to the probe or an expression product (mRNA) thereof.
- mRNA expression product
- a protein of the present invention has an activity of the insulin transcription repressor belonging to the transcription factor CREM family, and has a function associated with nephropathy. Specifically, the protein has the functions associated with the onset and progression, and development of the symptom of nephropathy. The protein of the invention particularly has the function associated with diabetic nephropathy in nephropathy.
- the insulin transcription repressors include, for example, CREM ⁇ , ICER I, ICER I ⁇ , and the like. Among them, ICER I ⁇ is particularly useful.
- a method for obtaining the protein of the invention is not particularly limited, and for example, the protein can be obtained by the following methods.
- An expression vector is constructed by inserting the gene of the invention, e.g., the gene having the sequence described in SEQ ID NO:1 or 2 ligated downstream of an appropriate promoter into the vector. Then the resulting expression vector is introduced into a host to produce a transformant.
- the vector for example, it is possible to use retrovirus type vector, papilloma virus vector, vaccinia virus vector, SV40 type vector, baculovirus vector, and the like.
- the host for example, it is possible to use fungi, bacteria, yeast, insect cells, plant cells, animal cells and the like.
- the nephropathy-associated protein of the present invention is obtained by culturing the produced transformants and collecting the protein produced and accumulated in the culture.
- the produced protein can be isolated and purified by publicly known purification methods such as salting out by inorganic salts, fractionated precipitation by organic solvent, ion-exchange resin column chromatography, affinity column chromatography, gel filtration and immunoprecipitation.
- the protein can also be formulated by publicly known methods.
- the protein of the invention has strong relevance with mechanisms for the onset and progression of nephropathy, and thus, the protein can be utilized effectively for the diagnosis of nephropathy, the analysis of the onset mechanism of nephropathy, determination of malignancy of nephropathy, and the like.
- An antibody of the present invention is an antibody which binds specifically to nephropathy-associated protein of the invention or a part thereof, can detect or measure the nephropathy-associated protein, and can be usefully utilized for the detection of nephropathy-associated protein, the diagnosis of nephropathy, the detection or determination of nephropathy, the treatment of nephropathy and the like.
- the antibody of the invention can be suitably used, in particular, for diabetic nephropathy in nephropathy.
- the antibody may be a polyclonal antibody or a monoclonal antibody as long as it can bind specifically to the protein of the invention or a part thereof.
- the monoclonal antibody is produced, for example as follows.
- An individual in which an antibody titer has been detected is selected from non-human mammalian animals, e.g., mice immunized with the protein of the present invention or a partial peptide thereof as an antigen, spleen or lymph nodes are removed 2 to 5 days after the final immunization, and antibody-producing cells contained therein are fused with myeloma cells to prepare hybridomas which produce the monoclonal antibody.
- the monoclonal antibody can be obtained by culturing the hybridomas to produce the antibody and appropriately isolating/purifying the antibody.
- Cell fusion can be performed in accordance with known methods, e.g., Kohler and Milstein's method (Nature, 256, 495, 1975) and modified methods thereof (J. Immunol. Method, 39, 285, 1980; Eur. J. Biochem., 118, 437, 1981, Nature, 285, 446, 1980).
- a fusion accelerator polyethylene glycol (PEG) and Sendai virus and the like are used.
- the monoclonal antibody of the invention may be used for humans by using an appropriate method known publicly.
- a polyclonal antibody can be produced, for example as follows. Non-human mammalian animals are immunized with the protein antigen itself or a complex thereof with a carrier protein by the same method as in the production of the monoclonal antibody.
- the polyclonal antibody can be obtained by collecting an antibody against the protein of the invention from the immunized animal and isolating/purifying the antibody.
- the antibody of the present invention it is possible to detect and measure nephropathy-associated protein. Also by utilizing the antibody of the invention, it is possible to detect, determine or diagnose nephropathy (including diabetic nephropathy). For example, the onset, severity and prognosis of the nephropathy can be determined or diagnosed by contacting the antibody of the invention with a sample prepared from a specimen, and detecting or measuring an expressed amount or an expressed site of nephropathy-associated protein.
- the antibody of the invention can be utilized usefully for detection and treatment of the diabetic nephropathy in nephropathy.
- the antibody of the invention can also be appropriately formulated to use as a diagnostic, detecting or determining medicine of nephropathy or a preventive or therapeutic agent of nephropathy.
- the diagnostic medicine of the nephropathy can also be utilized as a pharmaceutical for detecting or measuring the nephropathy-associated protein.
- the preventive or therapeutic agent of the nephropathy can also be utilized as a pharmaceutical for inhibiting the expression or the function of the nephropathy-associated protein.
- the pharmaceutical containing the antibody of the invention can be usefully utilized as the diagnostic medicine of diabetic nephropathy or the preventive or therapeutic agent of diabetic nephropathy.
- the nephropathy-associated gene of the present invention can be involved in the development of nephropathy, particularly diabetic nephropathy as the complications of the diabetes. Therefore, a substance which inhibits the expression or the function of the gene is useful as not only the preventive or therapeutic agent of nephropathy but also the preventive or therapeutic agent of diabetic nephropathy and furthermore as the preventive or therapeutic agent of the diabetes.
- An inhibitor of the expression or the function of the nephropathy-associated gene, an antisense DNA of the gene and the antibody against the nephropathy-associated protein can be useful as the preventive or therapeutic agent for the nephropathy, diabetic nephropathy and diabetes.
- a transgenic non-human mammalian animal in the present invention refers to a mammalian animal other than human, produced by gene recombination by introducing the gene of the invention.
- the mammalian animals other than human include mice, rabbits, rats, and the like.
- Methods for producing the transgenic non-human mammalian animal include a method (microinjection method) of directly introducing the gene in a pronucleus of an ovum with a micropipette under a phase contrast microscope, a method of using an embryonic stem cell (ES cell), a method of inserting the gene into a retrovirus vector or a adenovirus vector to infect the ovum, and a sperm vector method by introducing the gene into the ovum via a sperm.
- a method microinjection method of directly introducing the gene in a pronucleus of an ovum with a micropipette under a phase contrast microscope
- ES cell embryonic stem cell
- a transgenic mouse of the nephropathy-associated gene (e.g., ICER, ICER I ⁇ ) excessively expresses the gene specifically in ⁇ cells in pancreas.
- the mouse develops the diabetes attributed to hyperglycemia, which can cause the nephropathy, i.e., the pure diabetic nephropathy.
- the transgenic non-human mammalian animal of the invention exhibits the following symptoms characteristic for the nephropathy.
- transgenic non-human mammalian animal of the invention exhibits the following symptoms characteristic of severe diabetes.
- the most important symptoms in the transgenic non-human mammalian animal model of the present invention are the increase of the urinary albumin amount of 1) and the symptoms of 2) to 4) (the hypertrophy of renal pelvis, the enlargement of renal tubules, and the hypertrophy and fibrosing and subsequent sclerosis of glomerulus).
- the increase of the urinary volume has been observed, no proteinuria has been observed.
- the proteinuria has been observed only in the double transgenic mouse, but its mechanism is considered to be quite different from the actual condition of the diabetes.
- the model which exhibits the symptoms (proteinuria and glomerular sclerosis) of the diabetic nephropathy as the complications of the diabetes has been provided by the present invention for the first time.
- transgenic non-human mammalian animal of the invention can be utilized usefully as not only an animal model for nephropathy but also as an animal model for diabetes.
- the transgenic non-human mammalian animal of the invention is useful as the diabetic nephropathy model animal because the animal develops the symptoms similar to those of the human diabetic nephropathy.
- the transgenic non-human mammalian animal of the invention it is possible to perform screening for candidate substances of the diagnostic or therapeutic agent for the nephropathy or the diabetic nephropathy. Also by the use thereof, it is possible to examine an appropriate dosage, a dosing period and potential side effects of the candidate substance.
- the candidate substances of the diagnostic or therapeutic agent for at least one selected from the group consisting of the nephropathy, the diabetic nephropathy and the diabetes can be screened by administering a subject substance to the above transgenic non-human mammalian animal of the invention and measuring an effect of the subject substance on at least one selected from the group consisting of the nephropathy, the diabetic nephropathy and the diabetes of the mammalian animal.
- Substances effective for the treatment of nephropathy, diabetic nephropathy or the diabetes can also be screened using the expression of a reporter gene as an indicator by adding the subject substance in the culture system of a human transformed cell line transformed with a vector comprising the human transcription repressor, a promoter of, for example, ICER Iy and the reporter gene ligated to be expressed by the promoter.
- a therapeutic or diagnostic medicine for the nephropathy or the diabetic nephropathy can be produced by appropriately formulating the substance obtained by these screening methods as an active component or preparing it in combination with an appropriate pharmaceutically acceptable carrier.
- An ICER I ⁇ cDNA was inserted downstream of a human insulin promoter in a transgenic plasmid plns-1.
- a transgene cassette (plns-ICER I ⁇ plasmid) was cut out with restriction enzymes, purified and introduced into a fertilized ovum of C57BL/6 ⁇ C57BL/6 (pure C57BL/6 mouse).
- a transgenic mouse (Tg) was identified by PCR (polymerase chain reaction) analysis of a tail DNA using the following primers.
- Human insulin promoter SEQ ID NO.1 5′-ATGGGCTCTGAGACTATAAAGCCAG-3′ (forward); Rabbit ⁇ globin, SEQ ID NO.2 5′-TGGATCCTGAGAACTTCAGG-3′ (forward 1); SEQ ID NO.3 5′-GCTGGTTATTGTGCTGTCTC-3′ (forward 2); ICER I ⁇ , SEQ ID NO.4 5′-CAGTTTCATCTCCAGTTACAGCCAT-3′ (reverse 1); and SEQ ID NO.5 5′-CTGCTTTATGGCAATAAGG-3′ (reverse 2);
- a blood glucose value was measured in whole blood obtained from a tail by an enzyme-electrode method.
- the blood was quickly obtained from heart before the isolation of pancreas.
- the blood pressure was measured using a tail cuff method.
- the HbA1c value was measured using a DCA 2000 analyzer.
- primers are designed to stride an intron of the gene in order to distinguish the genomic DNA from the mRNA and confirm whether the DNA is not contaminated at an RNA preparation stage.
- a Tg genomic DNA containing the intron and a WT islet cDNA having no transgene were used as controls.
- the PCR was performed under a condition of 40 cycles of 94° C. for 15 seconds, 55° C. for 15 seconds, 72° C. for 30 seconds, and 72° C. for 5 minutes. PCR products were electrophoresed on 2% agarose gel and stained with ethidium bromide.
- the membrane was blocked with 5% skim milk in phosphate-buffered saline, and incubated with an anti-CREM antibody (diluted to 1:250; Santa Cruz Biotechnology, Inc., Santa Cruz, Calif.) at 37° C. for 2 hours. Subsequently, the membrane was incubated with a second antibody, horseradish peroxidase-linked anti-rabbit IgG (Amersham Pharmacia Biotech) at 37° C. for 30 min. At these steps, the membrane was washed three times with 5% Tween 20/phosphate buffer for 10 minutes. The detection was performed in accordance with ECL protocol (Amersham Pharmacia Biotech).
- the total islet RNA (20 ⁇ g) was denatured in a solution of 1 ⁇ MOPS (5 ⁇ MOPS: 0.1 M MOPS, 40 mM sodium acetate, 5 mM EDTA), 6.7% formaldehyde and 50% formamide at 55° C. for 15 minutes, subsequently electrophoresed on 1.2% formaldehyde agarose gel and blotted onto a membrane. After prehybridization at 65° C. for one hour, hybridization with a rat insulin cDNA probe was performed overnight. Both of the prehybridization and the hybridization were performed in a solution of 5 ⁇ sodium chloride-sodium citrate(SSC), 0.1%sodium dodecyl sulfate at 65° C.
- SSC 5 ⁇ sodium chloride-sodium citrate
- the membrane was washed twice with a solution of 0.1 ⁇ SSC and 0.1% sodium dodecyl sulfate at 65° C. for 30 minutes.
- Gene Images random prime labeling & detection system (Amersham Pharmacia Biotech) was used for labeling and detection of the probe.
- mice at 4 to 36 weeks of age produced as the above were individually housed in a metabolic cage, and the urine was accumulated for 24 hours.
- the mice could eat and drink ad libitum during the accumulation of urine.
- the amounts of urinary albumin and urinary NAG were measured using Alubuwell kit (Exocell Inc.) and NAG test kit (Shionogi), respectively.
- kidney halves were fixed with a methyl Carnoy solution, embedded in paraffin, and cut into serial sections (2 ⁇ m). Kidney sections were stained with PAS (periodic acid-Schiff) and PASM (periodic acid-methenamine silver), and observed by light microscopy. The remaining kidney halves were snap-frozen in cold acetone in OCT compound , and cryostat sections were used for immunohistochemical staining.
- PAS periodic acid-Schiff
- PASM peripheral acid-methenamine silver
- a glomerular area was analyzed using the PAS staining.
- the tissue was immediately embedded in an OCT compound, and frozen in acetone-dry ice. This block was sectioned into 3.5 ⁇ m sections using a cryostat.
- a rabbit polyclonal anti-mouse collagen type I antibody (Calbiochem), a rabbit polyclonal anti-mouse laminin antibody (Sigma), a rabbit polyclonal anti-mouse MMP-2 antibody (NeoMarks), and a rabbit polyclonal anti-mouse collagen type IV antibody (Progen Biotechnik) were used as primary antibodies.
- a FITC-labeled goat anti-rabbit antibody (Burlingame) was used as a second antibody.
- FIG. 1 a A construct used is shown in FIG. 1 a .
- the presence of ICER mRNA was identified by reverse transcriptase polymerase chain reaction (RT-PCR) by amplifying sequences specific for oligonucleotides specific for rabbit ⁇ globin and ICER I ⁇ .
- RT-PCR reverse transcriptase polymerase chain reaction
- the Tg genomic DNA containing a fragment with intron and the islet cDNA of the WT not containing the fragment were used as the controls.
- the expression of the ICER I ⁇ protein was identified by the anti-CREM antibody. It has been already reported that the anti-CREM antibody recognizes the ICER. As a result of performing the Western blotting, it was found that the ICER I ⁇ was excessively expressed in ICER I ⁇ Tg mice (see FIG. 1 c ).
- the expression levels of insulin mRNA were analyzed using the islet total RNA extracted from ICER I ⁇ Tg mice and the WT control mice at 10 weeks of age. The expression level of the insulin mRNA was obviously lower in ICER I ⁇ Tg mice than the control mice (see FIG. 1 d ).
- the number of the insulin-producing cells ( ⁇ cells) has been already reduced on day 0, and the ICER I ⁇ directly causes the reduction of the ⁇ cells ( FIG. 10A to D).
- ICER I ⁇ excessively expressed in the ⁇ cells inhibits the expression of tetracycline A which works importantly at a DNA synthesis phase in a cell cycle to inhibit proliferation of the ⁇ cells thereby reducing the number of the ⁇ cells in ICER I ⁇ Tg mice ( FIG. 11 ).
- ICER I ⁇ Tg mice developed severe diabetes. Blood glucose levels in ICER I ⁇ Tg mice were normal on day 0, but increased markedly on day 7, increased further at 2 weeks of age, and remained at these high levels thereafter (see FIGS. 2 a and 2 b ). Insulin concentrations in plasma were remarkably low and only one fifth of the control at 6 weeks of age (see FIG. 2 c ). Ketone levels in blood were extremely high at 6 and 12 weeks of age, and further increased until time of death (see FIG. 2 d ). Glucagon levels in plasma were also remarkably high (see FIG. 2 e ). In ICER I ⁇ Tg mice, ICER I ⁇ was expressed, and the number of the insulin-producing cell was reduced ( FIG. 2 f ).
- the body weights of ICER I ⁇ Tg mice were similar to those of the control on day 0 and day 7, but the body weights of ICER I ⁇ Tg mice were not increased, and slightly increased after 8 weeks of age (see FIGS. 3 a and 3 c ).
- mice with transgene positive Three lines (Tg7, Tg12 and Tg23) of ICER I ⁇ Tg mice with transgene positive were established. The results are represented by mean ⁇ SE of at least 10 animals in each group. In either males or females at 12 weeks of age, only ICER I ⁇ Tg mice exhibited low insulin and hyperglycemia. The mice from Tg7 and Tg12 contain a different copy number of the transgene from that of Tg23 mice, but no significant difference was observed in body weights, blood glucose levels, and insulin levels among the three lines. These results suggest that the specific expression of ICER I ⁇ at a high level is strongly linked to the symptoms of severe diabetes.
- ICER I ⁇ Tg mice were evaluated. Urinary volumes were examined, and polyurea was detected in ICER I ⁇ Tg mice ( FIG. 4 a ). Excretion of albumin in urine was examined, and high levels of proteinuria, which increased with age, was detected in ICER I ⁇ Tg mice ( FIG. 4 b ). Urinary NAG, which was a marker of renal tubular disorder, also increased with age in ICER I ⁇ Tg mice ( FIG. 4 c ). Thus, urinary volume, urinary albumin and urinary NAG exhibited much higher values in ICER I ⁇ Tg than WT (control) mice.
- the amount of glycohemoglobin (HbA1c) was remarkably increased in ICER I ⁇ Tg mice as compared with WT mice. Blood pressure was lower in ICER I ⁇ Tg mice than in WT mice. Although the body weights of ICER I ⁇ Tg mice were lower than those of WT mice, a weight ratio of kidney/body weight (%) was considerably larger in ICER I ⁇ Tg mice than in WT mice.
- ICER I ⁇ Tg mice were histologically examined. As a result, swelling of kidney and enlargement of renal pelvis and tubules were observed ( FIG. 5 ).
- ICER I ⁇ Tg mice the hypertrophy of glomerulus was observed at 4 weeks of age ( FIG. 6 ), and sclerosis thereof was observed at 12 weeks of age.
- Obvious glomerular sclerosis was observed in ICER I ⁇ Tg mice at 36 weeks of age ( FIGS. 7 a , 7 b and 7 c ). The glomerular hypertrophy was quantitatively examined, and the hypertrophy was observed from 4 to 12 weeks of age ( FIG. 7 d ).
- collagen type IV and laminin which indicate fibrosing, were increased ( FIGS. 8 and 9 ).
- nephropathy particularly diabetic nephropathy.
- the probe based on the gene of the invention or the antibody which binds to the protein of the invention it is possible to diagnose or determine the onset of or elucidate the onset mechanism of nephropathy or diabetic nephropathy.
- the transgenic non-human mammalian animal of the invention can be effectively utilized as a proper evaluative model of nephropathy, particularly diabetic nephropathy, because it develops the symptoms similar to nephropathy, particularly diabetic nephropathy, in humans.
- transgenic non-human mammalian animal of the invention it is possible to efficiently perform the determination or diagnosis of nephropathy or diabetic nephropathy, or the screening the active component of the preventive or therapeutic agent of nephropathy or diabetic nephropathy.
- the present invention provides exceptionally excellent procedures in the diagnosis or the treatment of nephropathy or diabetic nephropathy.
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